Blackberry plant named ‘Plablack 1401’

ABSTRACT

A new and distinct blackberry variety ‘Plablack 1401’ is characterized by a combination of traits which include, but are not limited to, weak anthocyanin coloration of dormant cane, many spines density, and abundant production of oblong shaped, and medium fruit size, a primocane fruiting habit that produces and maintains a strong vigorous plant with consistent fruit production on primocanes.

Botanical classification: Rubus subgenus Eubatus sect. Morifieri &Ursini and hybrids.

Variety denomination: The new plant has the varietal denomination‘Plablack 1401’.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of European Community Plant VarietyOffice Application No. 2017/1911, for a blackberry variety named‘Plablack 1401’, filed on Aug. 2, 2017, the entirety of which isincorporated by reference herein.

BACKGROUND

Disclosed herein is a new and distinct blackberry variety. The varietaldenomination of the new variety is ‘Plablack 1401’. The new variety wasdesignated by the breeder as ‘14.01R.28’. The new variety of blackberrywas created in a breeding program by crossing as seed parent anundistributed blackberry parent designated ‘13.01R.153’ (unpatented) andas pollen parent an undistributed blackberry parent designated‘10.04.05’ (unpatented). Both the female and male parents are selectionsfrom the Applicant breeder's program. Both parental varieties areproperty of the Applicant and have not been commercialized. TheApplicant maintains them in their nurseries, and both parental cultivarshave never been commercialized.

The resulting seedling of the new variety was grown and asexuallypropagated by root cuttings in Segovia, Spain, 3° 59′W., 41° 22′N., 2742feet elevation. Clones of the new variety were further asexuallypropagated and extensively tested. This propagation and testing hasdemonstrated that the combination of traits disclosed herein whichcharacterize the new variety are fixed and retained true to type throughsuccessive generations of asexual reproduction.

SUMMARY

The present invention relates to a new and distinct blackberry variety.The varietal denomination of the new variety is ‘Plablack 1401’. Newvariety shows a primocane fruiting habit, produces and maintains astrong vigorous plant with consistent fruit production from middleSeptember through the end of December on primocanes and in the ensuingyear from the end of April through the beginning of June.

Among the characteristics which appear to distinguish the new varietyfrom other varieties are a combination of traits which include weakanthocyanin coloration of dormant cane, many spines density, andabundant production of oblong shaped, and medium fruit size.

COMPARISON TO THE PARENTS

Neither the seed parental cultivar, ‘13.01R.153’ nor the pollen parentcultivar, ‘10.04.05’, has any patent or application for Plant PatentRights in any country on the world. Both, seed and pollen parentals wereobtained by the Applicant. They are selections from breeder's program ofthe Applicant. They are property of the Applicant. The Applicantmaintains them in their nurseries, and both parental cultivars havenever been commercialized.

The new variety is distinguished from its parents by the followingcharacteristics possessed by ‘Plablack 1401’ which are different than,or not possessed, by the seed parent designated ‘13.01R.153’(unpatented) and the pollen parent designated ‘10.04.05’ (unpatented).

The seed parent ‘13.01R.153’ (unpatented) shows a spines density higherthan the new variety ‘Plablack 1401’.

The color of the petal in the flower of the seed parent ‘13.01R.153’(unpatented) is white, whereas the color of the petal in the flower ofthe new variety ‘Plablack 1401’ is pinkish (RHS white group color near155 B to 155 A, with reddish pigmentation RHS red group near 55 D to 55C).

The seed parent ‘13.01R.153’ (unpatented) shows a longer fruit size thanthe new variety ‘Plablack 1401’.

The pollen parent ‘10.04.05’ (unpatented) shows a floricane fruitinghabit, whereas the new variety ‘Plablack 1401’ shows a primocanefruiting habit.

The pollen parent ‘10.04.05’ (unpatented) shows a smaller fruit sizethan the new variety ‘Plablack 1401’.

The pollen parent ‘10.04.05’ (unpatented) shows a medium ovate fruitshape, whereas the new variety ‘Plablack 1401’ shows an oblong fruitshape.

COMPARISON TO CLOSEST VARIETY

The new variety ‘Plablack 1401’ is closest to the variety ‘Reuben’(patented in U.S. Plant Pat. No. 23,497) and to the variety ‘Tupi’(unpatented), but is distinguished by the following characteristicspossessed by ‘Plablack 1401’ which are different, or not possessed by,‘Reuben’ (U.S. Plant Pat. No. 23,497) or ‘Tupi’ (unpatented).

‘Reuben’ (U.S. Plant Pat. No. 23,497) shows smaller spine density incanes than ‘Plablack 1401’. Also, the spines of ‘Reuben’ (U.S. PlantPat. No. 23,497) are shorter than ‘Plablack 1401’.

‘Reuben’ (U.S. Plant Pat. No. 23,497) does not show spines in thepetioles, whereas ‘Plablack 1401’ shows very few spines in the petioles.

The terminal leaflet of ‘Reuben’ (U.S. Plant Pat. No. 23,497) ismoderately longer than broad, whereas the terminal leaflet of ‘Plablack1401’ is much longer than broad.

The terminal leaflet of ‘Reuben’ U.S. Plant Patent No. (U.S. Plant Pat.No. 23,497) shows an acute shape of base, whereas the terminal leafletof ‘Plablack 1401’ shows an acute to rounded shape of base.

‘Reuben’ (U.S. Plant Pat. No. 23,497) shows a white petal color (RHSwhite group color near 155 D to 155 C), whereas ‘Plablack 1401’ shows awhite petal color (RHS white group color near 155 B to 155 A) withreddish pigmentation (RHS red group near 55 D to 55 C).

‘Reuben’ (U.S. Plant Pat. No. 23,497) maintains petals stuck to thefruits during the development and maturing of the fruits. ‘Plablack1401’ does not present petals stuck to the fruits.

‘Reuben’ (U.S. Plant Pat. No. 23,497) shows a medium ovate shaped fruitand a medium fruit size, whereas ‘Plablack 1401’ shows an oblong shapedfruit and a bigger fruit size than ‘Reuben’ (U.S. Plant Pat. No.23,497).

Time of beginning of flowering on current year's cane and time ofbeginning of fruit ripening on previous year's cane of ‘Reuben’ (U.S.Plant Pat. No. 23,497) is early, whereas in ‘Plablack 1401’ it is veryearly.

‘Tupi’ (unpatented) shows larger spines density in canes than ‘Plablack1401’.

‘Tupi’ (unpatented) shows larger number of spines in the petiole ofleaves than ‘Plablack 1401’.

‘Tupi’ (unpatented) shows an elliptic shaped fruit whereas ‘Plablack1401’ shows an oblong shaped fruit.

Differences in the spine density in canes of ‘Plablack 1401’ (designated14.01R.28) and ‘Reuben’ (U.S. Plant Pat. No. 23,497) are shown in FIG.7, FIG. 8 and FIG. 16.

Differences in spine density in the petioles, ratio length/width of theterminal leaflet, and the shape of the base of terminal leaflet of‘Plablack 1401’ (designated 14.01R.28) and ‘Reuben’ (U.S. Plant Pat. No.23,497) are shown in FIG. 3 and FIG. 17.

Differences in the petal color of ‘Plablack 1401’ (designated 14.01R.28)and ‘Reuben’ (U.S. Plant Pat. No. 23,497) are shown in FIG. 9 and FIG.18.

Differences in the maintenance of petals stuck to the fruits during thedevelopment and maturing of the fruits between ‘Plablack 1401’(designated 14.01R.28) and ‘Reuben’ (U.S. Plant Pat. No. 23,497) areshown in FIG. 2 and FIG. 15.

Differences in fruit shape and fruit size of ‘Plablack 1401’ (designated14.01R.28) and ‘Reuben’ (U.S. Plant Pat. No. 23,497) are shown in FIG.13, FIG. 14 and FIG. 19.

Differences in the spines density in canes of ‘Plablack 1401’(designated 14.01R.28) and ‘Tupi’ (unpatented) are shown in FIG. 7, FIG.8 and FIG. 20.

Differences in spine density in the petioles of ‘Plablack 1401’(designated 14.01R.28) and ‘Tupi’ (unpatented) are shown in FIG. 3 andFIG. 21.

Differences in fruit shape of ‘Plablack 1401’ (designated 14.01R.28) and‘Tupi’ (unpatented) are shown in FIG. 13, FIG. 14 and FIG. 22.

BRIEF DESCRIPTION OF THE ILLUSTRATIONS

The accompanying photographs show typical specimens of the new variety,designated 14.01R.28 in the illustrations, including fruit, foliage andflower, in color as nearly true as it is reasonably possible to make incolor illustrations of this character.

The plants depicted in the drawings were planted June 15 in Cartaya(Huelva), Spain, about 7° W, 37° N, 45 feet elevation.

Drawings/photographs were taken in December (about December 10 andDecember 30): minimum temperate about 5° to 6° Centigrade, maximumtemperate about 16° to 20° Centigrade and May (about May 8 and May 16):minimum temperate about 13° to 15° Centigrade, maximum temperate about26° to 29° Centigrade.

FIG. 1 and FIG. 2 show several plants of the new variety (designated14.01R.28) which exhibit a upright habit plant.

FIG. 3 and FIG. 4 show the upperside and the underside, respectively, ofa complete leaf of the new variety (designated 14.01R.28). In its we cansee that the leaf color of upper side of the new variety (designated14.01R.28) is a green color (RHS green group near 141 B to 141 A) andthe leaf color of underside of the new variety (designated 14.01R.28) isRHS green group color (near 143 B to 143 A) and the petiole withoutspines.

FIG. 5 and FIG. 6 show the upperside and the underside, respectively, ofterminal leaflet of the new variety (designated 14.01R.28). In it, wecan see that the leaf color of the upper side of the new variety(designated 14.01R.28) is a green color (RHS green group near 141 B to141 A) and the leaf color of underside of the new variety (designated14.01R.28) is RHS green group color (near 143 B to 143 A) and the lengthof terminal leaflet in the new variety (designated 14.01R.28) is long.

FIG. 7 shows the color of young shoots of the new variety (designated14.01R.28) RHS green group (near 139 C to 139 B), with a weakanthocyanin coloration during rapid growth (RHS greyed-red group near180 C to 180 B), medium spine density, typical color at the bases of itsspines (RHS red group color near 52 D to 52 B) and typical color at thetips of spines (RHS yellow-orange group color (near 19 D to 20 D).

FIG. 8 shows the dormant cane with few pubescence downward, mediumspines density, typical color at base of spines (RHS green group colornear 138 D to 138 C) and typical color at tip of spines (RHSgreyed-orange group color near 173 D to 173 A).

FIG. 9 shows typical flowers of the new variety (designated 14.01R.28).

FIG. 10 shows typical petals of the new variety (designated 14.01R.28)with medium long flat elliptic shape and RHS white group color (near 155B to 155 A) and reddish pigmentation RHS red group (near 55 D to 55 C).

FIG. 11 shows typical sepals of the new variety (designated 14.01R.28)with triangular shape, acuminated apex and green color (RHS green groupnear 143 C to 143 A).

FIG. 12 shows typical flower buds of the new variety (designated14.01R.28) with rounded shape and green color and green color (RHS greengroup near 143 B to 143 A).

FIG. 13 and FIG. 14 show typical fruits of the new variety (designated14.01R.28) with oblong shapes and black color (RHS black group near 202A).

FIG. 15 shows several plants of ‘Reuben’ (U.S. Plant Pat. No. 23,497),which maintain petals stuck to the fruits during the development andmaturing of the fruits.

FIG. 16 shows the small spines density in canes of ‘Reuben’ (U.S. PlantPat. No. 23,497).

FIG. 17 shows a complete leaf of ‘Reuben’ (U.S. Plant Pat. No. 23,497).In it is appreciated that it does not show spines in the petiole, andthe terminal leaflet is moderately longer than broad and shows an acuteshape of the base.

FIG. 18 shows typical flower of ‘Reuben’ (U.S. Plant Pat. No. 23,497)with a white petal color (RHS white group color near 155 D to 155 C).

FIG. 19 shows typical fruits medium ovate shaped fruit and a mediumfruit size of ‘Reuben’ (U.S. Plant Pat. No. 23,497).

FIG. 20 shows a typical spine density in canes of ‘Tupi’ (unpatented).

FIG. 21 shows the typical spine density in the petiole of a leaf of‘Tupi’ (unpatented).

FIG. 22 shows typical fruits of ‘Tupi’ (unpatented) with elliptic shape.

DESCRIPTION OF THE NEW VARIETY

The following description is in accordance with UPOV terminology and thecolor terminology herein is in accordance with The Royal HorticulturalSociety Colour Chart (R.H.S.C.C.), 3rd edition published in 1995.

The color descriptions and other phenotypical descriptions may deviatefrom the stated values and descriptions depending upon variation inenvironmental, seasonal, climatic and cultural conditions.

Throughout this specification, color names beginning with a small lettersignify that the name of that color, as used in common speech is aptlydescriptive. Color names beginning with capital letter designate valuesbased upon The R.H.S. Colour Chart published by The Royal Horticulturalsociety, London, England, 1995.

The following detailed description of the new variety is based uponobservations taken of plants and fruits grown “underglass,” i.e., undertunnel, in Cartaya (Huelva), Spain, 7° W., 37° N., 45 feet elevation.

PROPAGATION

The new variety is principally propagated by way of root cuttings.Although propagation by root cuttings is presently preferred, otherknown methods of propagating blackberry plants may be used. Blackberriesroot and develop well after transplanting.

‘Plablack 1401’ is propagated by root cuttings. It is a primocanevariety with fruit production from the middle of September through theend of December on primocanes and in the ensuing year from the end ofApril through the beginning of June. ‘Plablack 1401’ is a self-fertilevariety. It produces large quantities of pollen throughout the seasonsand pollination is good.

Plants described are from high elevation nursery in Segovia, Spain, 3°59′W., 41° 22′N., 2742 feet elevation. Trials were pursued in in Cartaya(Huelva), Spain. Date of planting (two years) of the plants was June 14in the first year and June 15 in the second year. Sample size was threerepetitions (every year) with 100 plants per repetition (every year).The growing period in Huelva, Spain, where the observations on primocaneproduction were made, is between about June 15 and June 2 of thefollowing year. ‘Plablack 1401’ is a primocane variety, with consistentfruit production from middle September through ending December onprimocanes and in the ensuing year from ending April through thebeginning of June. After planting as aforesaid, plants are grown inraised beds under tunnel. Water and fertilizer were applied through dripirrigation.

GENERAL

TABLE 1 Table 1 shows the accumulated production of 1st Quality Fruit(g/plant). Middle in September and Ending in April ending in andbeginning in Variety December June Total ‘Plablack 1401’ 392.00 1300.001692.00 ‘Reuben’ (U.S. Plant 94.10 1310.00 1404.10 Pat. No. 23,497) Tupi— 2127.00 2127.00

TABLE 2 Table 2 shows the accumulated total yield: 1st and 2nd QualityFruit (g/plant). 1st + 2nd quality Middle in 1st + 2nd quality Septemberand Ending in ending in September and Variety December beginning in JuneTotal ‘Plablack 1401’ 420.40 1475.00 1895.40 ‘Reuben’ (U.S. Plant 166.101345.00 1511.10 Pat. No. 23,497) Tupi — 2201.00 2201.00

TABLE 3 Table 3 shows the production beginning in middle September andending in December of First Quality Fruit (1st quality) and SecondQuality Fruit (2nd quality) in g/plant. TOTAL (1st 1st 2nd Quality + 2nd% 2nd Variety Quality Quality Quality) Quality ‘Plablack 1401’ 392.0028.40 420.40 6.75 ‘Reuben’ (U.S. Plant 94.10 72.10 166.20 43.38 Pat. No.23,497) ‘Tupi’ — — — — % 2nd Quality + (2nd Quality/TOTAL) × 100

TABLE 4 Table 4 shows the production beginning at the end of April andending at the beginning of June of First Quality Fruit (1st quality) andSecond Quality Fruit (2nd quality) in g/plant. TOTAL (1st 1st 2ndQuality +2nd % 2nd Variety Quality Quality Quality) Quality ‘Plablack1401’ 1300.00 175.00 1475.00 11.86 ‘Reuben’ (U.S. Plant 1310.00 35.001345.00 2.60 Pat. No. 23,497) ‘Tupi’ 2127.00 74.00 2201.00 3.36 % 2ndQuality = (2nd Quality/TOTAL) × 100

TABLE 5 Table 5 shows Weight (g/Fruit) in two production periods: middleSeptember to end December/end April to beginning June. Middle Septemberto end End April to beginning Variety December June ‘Plablack 1401’11.5-13.6 14.5-16.4 ‘Reuben’ (U.S. Plant 5.7-6.8 11.1-11.8 Pat. No.23,497) ‘Tupi’ 12.7-13.5 WEIGHT is shown as the average weight per fruit(g/fruit) in First Quality Fruits.

TABLE 6 Table 6 shows a comparison of the fruit analysis between the newvariety ‘Plablack 1401’ and its closest varieties ‘Reuben’ (U.S. PlantPat. No. 23,497) and “Tupi”. FRUIT ANALYSIS ‘Plablack ‘Reuben’ (U.S.Plant 1401’ (14.01R.28) Pat. No. 23,497) ‘Tupi’ Firmness (Kg) 0.30 0.400.30 Humidity & 87.90 86.10 87.30 Volatile Matter (%) Dry Matter (%)12.10 13.90 12.70 pH (to 20°) 3.50 3.40 3.20 Acidity as 0.58 0.89 0.86Anhydride Citric (%) Soluble Solids 10.60 10.70 9.30 (°Brix) MaturityIndex 18.30 12.00 10.80 Content in Ascorbic 385.70 406.80 398.20 Acid(ppm) Dominant Tonality 515 515 510 (nm) Luminosity: 38.3 19.90 15.30Transmittance tn 460 nm

The following definitions apply:

Firmness refers to the fruit's resistance to penetration measured inKilograms (Kg). The measure given has been obtained by the penetrometerROZE Mod. Arbelette, with a 50 mm² section head.

Dry Matter refers to the residual weight left from the trituration ofthe fruit after the drying process at a temperature of 103° C.±2° C.until reaching constant weight. (%) Dry Matter=(Weight Dry Matter/WeightFresh Matter)×100

Humidity & Volatile Matter represents the content in volatile mattersand water of the fruits. (%) Humidity & Volatile Matter=100−% Dry Matter

Maturity Index refers to the relation between Soluble solids and Acidityas Anhydride Citric.

Maturity Index=Soluble solids/Acidity as Anhydride Citric

DETAILED DESCRIPTION OF THE NEW VARIETY

The following additional information is provided to further describe thenew variety:

Variety: ‘Plablack 1401’

Breeder Ref: 14.01R.28

Classification: Rubus subgenus Eubatus sect. Morifieri & Ursini andhybrids.

Plants are growing in containers of 50 liters of capacity and they aredescribed during cultivar's primocane.

-   Plant:    -   -   Growth habit.—Upright.        -   Vigor.—Strong.        -   Cold tolerance.—The new variety has not been grown in harsh            winter conditions. It is expected to be of medium tolerance.        -   Heat tolerance.—The new variety has not been grown in harsh            summer conditions It is expected to be of medium to high            tolerance.-   Dormant cane:    -   -   Length.—About 180 cm to 200 cm.        -   Diameter.—About 1.0 cm to 1.5 cm.        -   Texture.—Smooth.        -   Internode length.—About 5.0 cm to 7.0 cm.        -   Pubescence.—Few and downward.        -   Anthocyanin coloration.—Weak (RHS greyed-red group near 180            C to 180 B).        -   Color.—RHS green group (near 139 C to 139 B).-   Young shoot:    -   -   Length.—About 170 cm to 180 cm.        -   Diameter.—About 0.7 cm to 0.9 cm.        -   Texture.—Smooth.        -   Internode length.—About 4.0 cm to 5.0 cm.        -   Pubescence.—Few and downward.        -   Anthocyanin coloration during rapid growth.—Absent or very            weak (RHS greyed-red group near 180 D to 180 C).        -   Color.—RHS green group (near 139 C to 139 B).-   Spines:    -   -   Shape.—Conical.        -   Density.—Medium.        -   Number/cm.—About 1 in to 2 in dormant canes and about 2 in            to 3 in young shoots.        -   Length.—About 7.0 mm to 9.0 mm.        -   Width.—About 4.0 mm to 6.0 mm at the base.        -   Apex.—Straight.        -   Texture.—Rigid.        -   Color at base in dormant cane.—RHS green group color (near            138 D to 138 C).        -   Color at tip in dormant cane.—RHS greyed-orange group color            (near 173 D to 173 A).        -   Color at base in young shoot.—RHS red group color (near 52 D            to 52 B).        -   Color at tip in young shoot.—RHS yellow-orange group color            (near 19 D to 20 D).        -   Attitude of apex in relation to cane.—Downwards.-   Leaf:    -   -   Type.—Odd-pinnate.        -   Number of leaflets.—3.        -   Arrangement of lateral leaflets.—Free.        -   Overlapping of lateral leaflets with terminal leaflet.—Free.        -   Upperside.—RHS green group (near 141 B to 141 A).        -   Underside.—RHS green group color (near 143 B to 143 A).        -   Length.—17.5 cm to 18.5 cm.        -   Width.—About 15.5 cm to 16.5 cm.        -   Profile of leaflets in cross section.—V-shaped.        -   Relief between veins.—Medium.        -   Upperside glossinesss.—Strong.-   Lateral leaflet:    -   -   Shape.—Elliptic.        -   Length.—About 8.0 cm to 9.0 cm.        -   Width.—About 4.5 cm to 5.0 cm.        -   Shape of tip.—Acuminate.        -   Shape of base.—Acute to rounded.        -   Shape of margin.—Bi-serrate.        -   Upperside rugosity.—Medium.        -   Underside texture.—Medium.        -   Upperside.—RHS green group (near 141 B to 141 A).        -   Underside.—RHS green group color (near 143 B to 143 A).        -   Venation pattern.—Penniveined.        -   Upperside venation coloration.—RHS yellow green group color            (near 144 C to 144 B).        -   Underside venation coloration.—RHS yellow green group color            (near 144 C to 144 B).-   Terminal leaflet:    -   -   Length/width ratio.—Longer than broad.        -   Length.—About 9.5 cm to10.0 cm.        -   Width.—About 6.0 cm to 6.5 cm.        -   Cross section.—Concave.        -   Upperside.—RHS green group (near 141 B to 141 A).        -   Underside.—RHS green group color (near 143 B to 143 A).        -   Shape of leaflet.—Ovate.        -   Shape of tip.—Acuminate.        -   Shape of base.—Acute to rounded.        -   Shape of margin.—Bi-serrate.        -   Upperside rugosity.—Medium.        -   Underside texture.—Medium.        -   Venation pattern.—Penniveined.        -   Upperside venation coloration.—RHS yellow green group color            (near 144 C to 144 B).        -   Underside venation coloration.—RHS yellow green group color            (near 144 C to 144 B).-   Rachis:    -   -   Length between the terminal leaflet and adjacent lateral            leaflet.—About 1.7 cm to 1.9 cm.        -   Coloration.—RHS yellow green group color (near 144 C to 144            B).-   Petiole:    -   -   Color.—RHS yellow green group color (near 144 C to 144 B).        -   Length.—About 5.0 to 5.5 cm.        -   Length (rachis with petiolule).—About 6.7 cm to 7.4 cm.        -   Diameter.—About 1.5 mm to 2.0 mm in the Petiolule and about            1.0 mm to 1.5 mm in the rachis.        -   Spines.—Very few.        -   Petiole texture.—Smooth.-   Stipule:    -   -   Quantity per leaf.—2.        -   Shape.—Lanceolate and erect.        -   Length.—About 7.0 mm to 9.0 mm.        -   Width.—Narrow. About 0.7 mm to 0.9 mm.        -   Color (both surfaces).—RHS green group color (near 143 C to            143 B).-   Peduncle:    -   -   Length.—About 3.5 cm to 4.5 cm.        -   Diameter.—About 1.0 mm to 2.0 mm.        -   Surface texture.—Smooth.        -   Density of spines.—Very sparse.        -   Color.—RHS green group color (near 139 C to 139 B).-   Flower bud:    -   -   Shape.—Rounded.        -   Diameter.—About 5.0 mm to 7.0 mm.        -   Color.—RHS green group (near 143 B to 143 A).-   Flower:    -   -   Diameter.—About 3.5 cm to 4.0 cm.        -   Number of pistils per flower.—About 120 to 130.        -   Pistil length.—About 3.0 mm to 4.0 mm.        -   Ovary shape.—Slightly reniform.        -   Ovary length.—About 1.0 mm to 1.5 mm.        -   Ovary width.—About 0.7 mm to 0.9 mm.        -   Ovary color.—RHS green group color (near 142 D to 142 C).        -   Style length.—About 2.0 mm to 2.5 mm.        -   Style color.—RHS green-white group color (near 157 D to 157            C).        -   Number of stamens per flower.—About 100 to 110.        -   Stamen length.—About 4.5 mm to 5.5 mm.        -   Stamen shape.—Cylindrical lengthened.        -   Stamen color.—RHS yellow green group color (near 149 D).        -   Pollen amount.—Moderate to abundant.        -   Pollen color.—RHS greyed-orange group color (near 175 C to            175 B).-   Petal:    -   -   Number of petals per flower.—About 5 to 6.        -   Shape.—Medium long flat elliptic.        -   Length.—About 1.8 cm to 2.0 cm.        -   Width.—About 0.9 cm to 1.1 cm.        -   Apex shape.—Rounded.        -   Base shape.—Narrow.        -   Margin.—Slightly uneven.        -   Texture.—Smooth.        -   Color (both surfaces).—RHS white group color (near 155 B to            155 A) with reddish pigmentation RHS red group (near 55 D to            55 C).-   Sepal:    -   -   Number of sepals per flower.—About 5 to 6.        -   Shape.—Triangular shape.        -   Length.—About 6.0 mm to 9.0 mm.        -   Width.—About 3.0 mm to 4.0 mm.        -   Apex shape.—Acuminate.        -   Base shape.—Large at the base forming the calyx.        -   Margin.—Smooth and regular.        -   Texture.—Smooth.        -   Color.—RHS green group color (near 143 C to 143 A).-   Fruit:    -   -   Shape.—Oblong.        -   Length.—About 3.7 cm to 4.3 cm.        -   Width.—About 2.7 cm to 3.1 cm.        -   Color.—RHS black group near 202 A.        -   Number of drupelets per fruit.—About 115 to 125.        -   Size of single drupelet.—About 3.0 mm to 5.0 mm.        -   Drupelet arrangement around the berry.—Slightly irregular.        -   Glossiness.—Strong.        -   Firmness.—Medium.-   Seed:    -   -   Number of seeds per drupelet.—1.        -   Shape.—Slightly reniform.        -   Color.—RHS greyed-orange group (near 164 B to 164 A).        -   Surface texture.—Wrinkled.-   Fruit bearing type: Both on previous year's cane in autumn and    current year's cane in spring.-   Fruiting lateral cane:    -   -   Number of fruit per fruiting lateral cane.—About 8 to 10            fruits.        -   Average number of fruit per node.—1 fruit.-   Disease resistance: No particular sensitivity to any disease or pest    has been observed for ‘Plablack 1401’.-   Use/market: The berries of ‘Plablack 1401’ are suitable for    consumption as fresh fruit. Also, they are amenable to processing.-   Storage qualities: ‘Plablack 1401’ fruits maintain their quality    characteristics when keeping them in a frigo chamber at temperatures    of about 2° C. during 48 hours. The fruit's color remains    substantially the same. Shelf-life of ‘Plablack 1401’ is medium.-   Planting date: Each year, about June 15 in Cartaya (Huelva), Spain,    about 7° W, 37° N, 45 feet elevation.-   Fall production in the same year:    -   -   10% Flowering (based on June 15 planting date).—About            September 1.        -   Time of flowers (50% of plants at first flower) (based on            June 15 planting date).—About September 15.        -   First mature fruits (based on June 15 planting date).—About            September 25.        -   Maturity (15-20 g/plant) (based on June 15 planting            date).—About October 7.-   Spring production in the ensuing year:    -   -   10% Flowering (based on June 15 planting date).—About March            25.        -   Time of flowers (50% of plants at first flower) (based on            June 15 planting date).—About April 10.        -   First mature fruits (based on June 15 planting date).—About            April 26.        -   Maturity (15-20 g/plant) (based on June 15 planting            date).—About May 5.

I claim:
 1. A new and distinct blackberry plant of the varietysubstantially as shown and described.